// Copyright 2016 Proyectos y Sistemas de Mantenimiento SL (eProsima).
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

/**
 * @file RTPSParticipantImpl.hpp
 */

#ifndef FASTDDS_RTPS_PARTICIPANT__RTPSPARTICIPANTIMPL_H
#define FASTDDS_RTPS_PARTICIPANT__RTPSPARTICIPANTIMPL_H

#include <atomic>
#include <map>
#include <sstream>

#include <gmock/gmock.h>

// Include first possible mocks (depending on include on CMakeLists.txt)
#include <fastdds/dds/core/ReturnCode.hpp>
#include <fastdds/builtin/type_lookup_service/TypeLookupManager.hpp>
#include <fastdds/rtps/attributes/RTPSParticipantAttributes.hpp>
#include <fastdds/rtps/builtin/data/ParticipantBuiltinTopicData.hpp>
#include <fastdds/rtps/common/LocatorList.hpp>
#include <fastdds/rtps/history/IChangePool.hpp>
#include <fastdds/rtps/participant/RTPSParticipantListener.hpp>
#include <fastdds/rtps/reader/RTPSReader.hpp>
#include <fastdds/rtps/writer/RTPSWriter.hpp>

#include <fastdds/utils/TypePropagation.hpp>
#include <rtps/network/NetworkFactory.hpp>
#include <rtps/reader/BaseReader.hpp>
#include <rtps/resources/ResourceEvent.h>
#if HAVE_SECURITY
#include <rtps/security/SecurityManager.h>
#endif // if HAVE_SECURITY
#include <rtps/writer/BaseWriter.hpp>


namespace eprosima {
namespace fastdds {
namespace rtps {

class Endpoint;
class RTPSParticipant;
class WriterHistory;
class ReaderHistory;
class WriterListener;
class ReaderListener;
class PDPSimple;
struct EntityId_t;
class ReaderProxyData;
class WriterProxyData;
class ReaderAttributes;
class NetworkFactory;
struct TopicDescription;

#if HAVE_SECURITY
namespace security {
class SecurityManager;
struct ParticipantSecurityAttributes;
} // namespace security
#endif // if HAVE_SECURITY

class MockParticipantListener : public RTPSParticipantListener
{
public:

    void on_participant_discovery(
            RTPSParticipant* participant,
            ParticipantDiscoveryStatus status,
            const ParticipantBuiltinTopicData& info,
            bool& should_be_ignored) override
    {
        on_participant_discovery_mock(participant, status, info, should_be_ignored);
    }

    MOCK_METHOD4(on_participant_discovery_mock,
            void (RTPSParticipant*, ParticipantDiscoveryStatus, const ParticipantBuiltinTopicData&,
            bool&));

#if HAVE_SECURITY
    void onParticipantAuthentication(
            RTPSParticipant* participant,
            ParticipantAuthenticationInfo&& info) override
    {
        onParticipantAuthentication(participant, info);
    }

    MOCK_METHOD2(onParticipantAuthentication, void (RTPSParticipant*, const ParticipantAuthenticationInfo&));
#endif // if HAVE_SECURITY
};

class RTPSParticipantImpl
{
public:

    RTPSParticipantImpl()
    {
        events_.init_thread();
    }

    RTPSParticipantImpl(
            uint32_t,
            const RTPSParticipantAttributes&,
            const GuidPrefix_t&,
            RTPSParticipant*,
            RTPSParticipantListener*)
    {
        events_.init_thread();
    }

    RTPSParticipantImpl(
            uint32_t,
            const RTPSParticipantAttributes&,
            const GuidPrefix_t&,
            const GuidPrefix_t&,
            RTPSParticipant*,
            RTPSParticipantListener*)
    {
        events_.init_thread();
    }

    MOCK_CONST_METHOD0(get_domain_id, uint32_t());

    MOCK_CONST_METHOD0(getGuid, const GUID_t& ());

    const NetworkFactory& network_factory()
    {
        return network_factory_;
    }

    MOCK_METHOD0(is_intraprocess_only, bool());

    MOCK_METHOD0(get_persistence_guid_prefix, GuidPrefix_t());

    MOCK_METHOD0(should_send_optional_qos, bool());

#if HAVE_SECURITY
    MOCK_CONST_METHOD0(security_attributes, const security::ParticipantSecurityAttributes& ());

    MOCK_METHOD2(pairing_remote_reader_with_local_writer_after_security, bool(const GUID_t&, const ReaderProxyData&));

    MOCK_METHOD2(pairing_remote_writer_with_local_reader_after_security,
            bool(const GUID_t&, const WriterProxyData& remote_writer_data));

    MOCK_CONST_METHOD0(is_secure, bool ());

    MOCK_METHOD0(security_manager, security::SecurityManager& ());

#endif // if HAVE_SECURITY

    MOCK_METHOD1(setGuid, void(GUID_t &));

    MOCK_METHOD1(check_type, bool(std::string));

    MOCK_METHOD2(on_entity_discovery,
            void(const fastdds::rtps::GUID_t&, const fastdds::dds::ParameterPropertyList_t&));

    // *INDENT-OFF* Uncrustify makes a mess with MOCK_METHOD macros
    MOCK_METHOD6(createWriter_mock,
            bool (RTPSWriter** writer, WriterAttributes& param, WriterHistory* hist,
            WriterListener* listen,
            const EntityId_t& entityId, bool isBuiltin));

    MOCK_METHOD7(createReader_mock,
            bool (RTPSReader** reader, ReaderAttributes& param, ReaderHistory* hist,
            ReaderListener* listen,
            const EntityId_t& entityId, bool isBuiltin, bool enable));

    MOCK_METHOD3(register_writer, eprosima::fastdds::dds::ReturnCode_t(
            RTPSWriter * Writer,
            const fastdds::rtps::TopicDescription& topic,
            const fastdds::rtps::PublicationBuiltinTopicData& pub_builtin_topic_data));

    MOCK_METHOD4(register_reader, eprosima::fastdds::dds::ReturnCode_t(
            RTPSReader * Reader,
            const fastdds::rtps::TopicDescription& topic,
            const fastdds::rtps::SubscriptionBuiltinTopicData& sub_builtin_topic_data,
            const fastdds::rtps::ContentFilterProperty* content_filter));
    // *INDENT-ON*

    bool createWriter(
            RTPSWriter** writer,
            WriterAttributes& param,
            WriterHistory* hist,
            WriterListener* listen,
            const EntityId_t& entityId = c_EntityId_Unknown,
            bool isBuiltin = false)
    {
        bool ret = createWriter_mock(writer, param, hist, listen, entityId, isBuiltin);
        if (*writer != nullptr)
        {
            (*writer)->history_ = hist;

            auto guid = generate_endpoint_guid();
            (*writer)->m_guid = guid;
            endpoints_.emplace(guid, *writer);
        }
        return ret;
    }

    bool createWriter(
            RTPSWriter** writer,
            WriterAttributes& param,
            const std::shared_ptr<IPayloadPool>&,
            WriterHistory* hist,
            WriterListener* listen,
            const EntityId_t& entityId = c_EntityId_Unknown,
            bool isBuiltin = false)
    {
        bool ret = createWriter_mock(writer, param, hist, listen, entityId, isBuiltin);
        if (*writer != nullptr)
        {
            (*writer)->history_ = hist;

            auto guid = generate_endpoint_guid();
            (*writer)->m_guid = guid;
            endpoints_.emplace(guid, *writer);
        }
        return ret;
    }

    bool createReader(
            RTPSReader** reader,
            ReaderAttributes& param,
            ReaderHistory* hist,
            ReaderListener* listen,
            const EntityId_t& entityId = c_EntityId_Unknown,
            bool isBuiltin = false,
            bool enable = true)
    {
        bool ret = createReader_mock(reader, param, hist, listen, entityId, isBuiltin, enable);
        if (*reader != nullptr)
        {
            (*reader)->history_ = hist;
            fastdds::rtps::BaseReader::downcast(*reader)->listener_ = listen;

            auto guid = generate_endpoint_guid();
            (*reader)->m_guid = guid;
            endpoints_.emplace(guid, *reader);
        }
        return ret;
    }

    bool createReader(
            RTPSReader** reader,
            ReaderAttributes& param,
            const std::shared_ptr<IPayloadPool>&,
            ReaderHistory* hist,
            ReaderListener* listen,
            const EntityId_t& entityId = c_EntityId_Unknown,
            bool isBuiltin = false,
            bool enable = true)
    {
        bool ret = createReader_mock(reader, param, hist, listen, entityId, isBuiltin, enable);
        if (*reader != nullptr)
        {
            (*reader)->history_ = hist;
            fastdds::rtps::BaseReader::downcast(*reader)->listener_ = listen;

            auto guid = generate_endpoint_guid();
            (*reader)->m_guid = guid;
            endpoints_.emplace(guid, *reader);
        }
        return ret;
    }

    bool deleteUserEndpoint(
            const GUID_t& e)
    {
        // Check the map
        auto it = endpoints_.find(e);
        if ( it != endpoints_.end())
        {
            delete it->second;
            endpoints_.erase(it);
        }

        return true;
    }

    MOCK_METHOD0(pdp, PDP * ());

    MOCK_METHOD0(pdpsimple, PDPSimple * ());

    MockParticipantListener* getListener()
    {
        return &listener_;
    }

    RTPSParticipant* getUserRTPSParticipant()
    {
        return nullptr;
    }

    ResourceEvent& getEventResource()
    {
        return events_;
    }

    void set_endpoint_rtps_protection_supports(
            Endpoint* /*endpoint*/,
            bool /*support*/)
    {
    }

    void ResourceSemaphoreWait()
    {
    }

    void ResourceSemaphorePost()
    {
    }

    uint32_t getMaxMessageSize() const
    {
        return 65536;
    }

    const RTPSParticipantAttributes& get_attributes() const
    {
        return attr_;
    }

    void get_sending_locators(
            rtps::LocatorList_t& /*locators*/) const
    {
    }

    template <EndpointKind_t kind, octet no_key, octet with_key>
    static bool preprocess_endpoint_attributes(
            const EntityId_t&,
            std::atomic<uint32_t>&,
            EndpointAttributes&,
            EntityId_t&)
    {
        return true;
    }

    template<class Functor>
    Functor forEachUserWriter(
            Functor f)
    {
        return f;
    }

    template<class Functor>
    Functor forEachUserReader(
            Functor f)
    {
        return f;
    }

    MOCK_METHOD(bool, should_match_local_endpoints, ());

    MOCK_METHOD(bool, ignore_participant, (const GuidPrefix_t&));

    MOCK_METHOD(bool, update_removed_participant, (rtps::LocatorList_t&));

    MOCK_METHOD0(has_shm_transport, bool());

    MOCK_METHOD0(typelookup_manager, fastdds::dds::builtin::TypeLookupManager* ());

    uint32_t getRTPSParticipantID() const
    {
        return 0;
    }

    bool is_initialized() const
    {
        return true;
    }

    bool did_mutation_took_place_on_meta(
            const LocatorList_t&,
            const LocatorList_t&) const
    {
        return false;
    }

    bool networkFactoryHasRegisteredTransports() const
    {
        return true;
    }

    void environment_file_has_changed()
    {
    }

    void enable()
    {
    }

    void disable()
    {
    }

    bool create_writer(
            RTPSWriter**,
            WriterAttributes&,
            WriterHistory*,
            WriterListener*,
            const EntityId_t&,
            bool)
    {
        return true;
    }

    void client_override(
            bool)
    {
    }

    RTPSReader* find_local_reader(
            const GUID_t&)
    {
        return nullptr;
    }

    BaseWriter* find_local_writer(
            const GUID_t&)
    {
        return nullptr;
    }

    MOCK_METHOD(dds::utils::TypePropagation, type_propagation, (), (const));

private:

    MockParticipantListener listener_;

    RTPSParticipantAttributes attr_;

    NetworkFactory network_factory_ {attr_};

    ::testing::NiceMock<ResourceEvent> events_;

    std::map<GUID_t, Endpoint*> endpoints_;

    GUID_t generate_endpoint_guid() const
    {
        static uint32_t counter = 0;
        const char* prefix = "49.20.48.61.74.65.20.47.4D.6F.63.6B";

        GUID_t res;
        std::istringstream is(prefix);
        is >> res.guidPrefix;
        res.entityId = ++counter;
        return res;
    }

};

} // namespace rtps
} // namespace fastdds
} // namespace eprosima

#endif // FASTDDS_RTPS_PARTICIPANT__RTPSPARTICIPANTIMPL_H
